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Query: UMLS:C0917801 (insomnia)
 10,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Wakefulness and sleep are antagonistic states competing for the domain of brain activity. Non-REM sleep and REM sleep are different states of being, sustained by activity in brainstem nuclei, hypothalamus, basal forebrain, and thalamus. Such complex phenomenology is subject to many alterations grouped in the new International Classification of Sleep Disorders. The insomnias are the result of interacting psychosocial, psychophysiologic, neurodevelopmental, and medical factors. Proper perspective of each factor provides the clinical strategies to approach medically the symptom-complex of insomnia. The most common cause of daytime hypersomnia is chronic sleep deprivation. Obstructive sleep apnea responds to nasal CPAP, but the failure rate approaches 30%. In intolerant patients BiPAP and surgical remedies should be considered. Motor and behavioral abnormalities of sleep may be linked to REM sleep as in the REM sleep behavior disorder. Paroxysmal nocturnal dystonia and nocturnal wanderings may be associated with epilepsy. Intrusions of one state of being (wakefulness, non-REM sleep, and REM sleep) into another result in mixed, poorly defined, or only partially developed states. Dissociation of states may be responsible for confusional arousals, hallucinations, and cateplexy. Senile degeneration of the suprachiasmatic nuclei may underlie the circadian rhythm changes in old age and the "sundown" syndrome in demented patients. Misalignment of the hypothalamic pacemaker causes dysregulation of sleep-related physiologic and behavioral variables. Exposure to bright light retrains the pacemaker in night-shift workers, transmeridian travelers, and in patients with seasonal affective syndrome. Benzodiazepine compounds are very effective hypnotics, but should be used sparingly in the elderly to avoid falls, memory lapses, and aggravation of a preexisting sleep apnea syndrome. Sleep laboratory evaluations are indicated in patients with hypersomnia, suspected sleep apnea syndrome, motor-behavioral disorders of sleep, and in many individuals complaining of insomnia.
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PMID:Update on disorders of sleep and the sleep--wake cycle. 160 36

Questionnaires were answered by 3,243 presumably healthy subjects who underwent regular medical checkups in four cities. The prevalences of risk factors for sleep-disordered breathing (SDB) were as follows; habitual snoring was reported by 13-16%, excessive daytime sleepiness by 8-9%, insomnia by 7-13% and systemic hypertension by 5-13%. Polysomnographic studies performed on some possible SDB cases who were selected by the presence of risk factors estimated that the average prevalence of SDB in the present population would be in the range of 1.14-1.94%. Secondly, questionnaires were sent to the main hospitals and institutes involved in the management of patients with SDB, asking about diagnostic criteria, number of SDB patients, management, effectiveness of treatment, etc. The total number of patients registered at those hospitals was 2,751 in 1991. Of the 132 patients who were followed for more than six months, the efficacies of body weight loss, medications, nasal CPAP and UPPP were compared. Based on the analyses of the 279 patients examined some tentative vriteria for diagnosis and for treatment are proposed.
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PMID:[Sleep-disordered breathing in Japan: an overview]. 800 55

A patient with Marfan's syndrome and obstructive sleep hypopnea syndrome is reported. She had complained about insomnia, tiredness and hypersomnolence lasting 2 years. A complete nightly polysomnography revealed 94 obstructive hypopneas (the hypopnea index was 12.85) and no obstructive apneas. Presumably an increased laxity of the pharyngeal wall was responsible for the phenomenon. A therapy with CPAP was started, but was not tolerated by the patient. Oxygen therapy on the other hand turned out to be effective and well tolerated.
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PMID:Obstructive sleep hypopnea syndrome in a patient with Marfan syndrome treated with oxygen therapy. 855 69

OSAS, a common cause of disrupted sleep and EDS, result from repetitive closure of the upper airway during sleep. It probably represents the most severe syndrome related to obstruction of the upper airway; less severe forms include UARS, a syndrome characterized by the need for increased effort to breath but no prominent apneas or hypopneas, and primary snoring. Initial clues to the presence of OSAS and related disorders are derived from the history and include loud snoring, EDS or insomnia, and witnessed apneas. Some patients, especially women, may complain mostly of tiredness or fatigue, and children may present with behavioral abnormalities. Obesity, a large neck circumference, and a crowded oropharynx are common on physical examination. Nonobese patients, in particular, often have retrognathia, a high-arched narrow palate, macroglossia, enlarged tonsils, temporomandibular joint abnormalities, or chronic nasal obstruction. The clinical suspicion of obstructed nocturnal breathing is confirmed by overnight polysomnography, and an MSLT may be used to assess sleepiness. Esophageal manometry during polysomnography facilitates diagnosis of UARS. Treatment most commonly consists of nasal CPAP or BPAP, although problems with compliance make surgical treatment preferable in some cases. Although UPPP eliminates sleep apnea only in a minority of patients, combining UPPP with maxillofacial procedures appears to improve outcomes. Other treatments such as the use of dental appliances or medications, weight loss, and positional therapy may be useful as adjunctive therapy for moderate to severe OSAS or as primary treatments for UARS or mild OSAS.
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PMID:Obstructive sleep apnea and related disorders. 887 78

This overview discusses pathogenesis, clinical presentation, prognostic implications and therapy of central sleep apnea with special reference to Cheyne-Stokes-Respiration or periodic breathing. In contrast to obstructive sleep apnea due to upper airway collapse during sleep, central sleep apnea (CSA) is mainly due to an instability of the breathing control system. Causes of central sleep apnea include alveolar hypoventilation disorders, heart failure, neurologic and autonomic disorders and idiopathic forms of CSA. Patients with idiopathic CSA often complain of insomnia and awakening during sleep but may also suffer from daytime sleepiness. Cheyne-Stokes-Respiration or peridic breathing is often associated with heart failure and neurological disorders especially those involving the brainstem. In heart failure periodic breathing has enormous prognostic implications. Treatment options for central sleep apnea are oxygen supplementation, medical therapy (i.e. acetazolamide) and CPAP. For patients with central sleep apnoea associated with alveolar hypoventilation nasal ventilation is treatment of choice. Newer nasal ventilation techniques (BiPAP, AutoSetCS) are under investigation for heart failure patients with Cheyne-Stokes-Respiration.
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PMID:[Central sleep apnea syndrome and Cheyne-Stokes respiration]. 1095 54

Stress and shortage of sleep may cause daytime somnolence and impaired vigilance at the wheel, especially among those suffering from sleep disturbances. According to the international consensus meeting in Stockholm in May of 2000 on "The sleepy driver and pilot--causes, risks and countermeasures", drowsy driving is an underestimated risk factor in official statistics, and as many as 15-30 percent of today's traffic accidents are related to drowsiness; thus it is an even greater risk factor than alcohol. Drowsy drivers suffer from inattention, impaired concentration and may even fall asleep at the wheel. Accidents during dozing result in three times as many fatalities as other accidents. There are a number of reasons for habitual drowsiness at the wheel aside from sleep deprivation, including rhonchopathy, shift work and jet lag, mental depression, insomnia, narcolepsy, endocrinological diseases, periodic limb movement disorder, medication, pain-disordered sleep, and heart disease. Among the most active drivers, i.e. middle aged men, obstructive sleep apnea syndrome (OSAS) has been found to be the most common reason for habitually drowsy driving. OSAS causes a 2-3 fold increased risk of traffic accidents, and it impairs simulated driving. Palatoplasty as well as nasal CPAP have been shown to improve vigilance and driving performance to an extent that the increase in risk is eliminated. Drivers suffering from habitual drowsiness and micro-sleep attacks forcing them to take repeated rests are at special risk. Even if they are as dangerous as drivers with unlawful blood alcohol levels they cannot be caught in a police checkpoint. However they often seek medial advice, and properly treated they may often return safely to traffic. If not, there could be a need to report them to the authorities so as to limit or prohibit their driving.
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PMID:[Drowsiness--greater traffic hazard than alcohol. Causes, risks and treatment]. 1146 75

Despite the complex influences of normal sleep physiology and sleep disorders on the development or presentation of headache, it is important to recognize and understand these relationships. Successful outcomes depend on the provision of treatment interventions specifically directed toward each condition. Nocturnal or early morning headaches that are associated with OSA are often eradicated after the sleep disorder is successfully managed with CPAP, oral appliances, or surgery. Substantial improvement in headache can also result from the successful management of other sleep disorders that may incite headaches such as heavy snoring, PLMS, or the various forms of insomnia. To improve headache patterns associated with bruxism and TMD, it is often necessary to formulate a multidisciplinary treatment approach that combines oral appliance therapy, stress management, biofeedback, oromandibular physical therapy, and, at times, pharmacologic treatment (i.e., tricyclic antidepressant, intramuscular botulinum toxin injections). There are still many gaps in the understanding of the interrelationships of sleep physiology and headache pathophysiology. More well-designed clinical trials are needed so that enough data can be amassed for the formulation of evidence-based guidelines or consensus statements that can better delineate the identification, diagnostic evaluation, and treatment of sleep-related headache disorders and headaches that develop as a consequence of disordered sleep.
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PMID:Headaches and their relationship to sleep. 1169 36

In summary, although actigraphy is not as accurate as PSG for determining some sleep measurements, studies are in general agreement that actigraphy, with its ability to record continuously for long time periods, is more reliable than sleep logs which rely on the patients' recall of how many times they woke up or how long they slept during the night and is more reliable than observations which only capture short time periods. Actigraphy can provide information obtainable in no other practical way. It can also have a role in the medical care of patients with sleep disorders. However, it should not be held to the same expectations as polysomnography. Actigraphy is one-dimensional, whereas polysomnography comprises at least 3 distinct types of data (EEG, EOG, EMG), which jointly determine whether a person is asleep or awake. It is therefore doubtful whether actigraphic data will ever be informationally equivalent to the PSG, although progress on hardware and data processing software is continuously being made. Although the 1995 practice parameters paper determined that actigraphy was not appropriate for the diagnosis of sleep disorders, more recent studies suggest that for some disorders, actigraphy may be more practical than PSG. While actigraphy is still not appropriate for the diagnosis of sleep disordered breathing or of periodic limb movements in sleep, it is highly appropriate for examining the sleep variability (i.e., night-to-night variability) in patients with insomnia. Actigraphy is also appropriate for the assessment of and stability of treatment effects of anything from hypnotic drugs to light treatment to CPAP, particularly if assessments are done before and after the start of treatment. A recent independent review of the actigraphy literature by Sadeh and Acebo reached many of these same conclusions. Some of the research studies failed to find relationships between sleep measures and health-related symptoms. The interpretation of these data is also not clear-cut. Is it that the actigraph is not reliable enough to the access the relationship between sleep changes and quality of life measures, or, is it that, in fact, there is no relationship between sleep in that population and quality of life measures? Other studies of sleep disordered breathing, where actigraphy was not used and was not an outcome measure also failed to find any relationship with quality of life. Is it then the actigraph that is not reliable or that the associations just do not exist? The one area where actigraphy can be used for clinical diagnosis is in the evaluation of circadian rhythm disorders. Actigraphy has been shown to be very good for identifying rhythms. Results of actigraphic recordings correlate well with measurements of melatonin and of core body temperature rhythms. Activity records also show sleep disturbance when sleep is attempted at an unfavorable phase of the circadian cycle. Actigraphy therefore would be particularly good for aiding in the diagnosis of delayed or advanced sleep phase syndrome, non-24-hour-sleep syndrome and in the evaluation of sleep disturbances in shift workers. It must be remembered, however, that overt rest-activity rhythms are susceptible to various masking effects, so they may not always show the underlying rhythm of the endogenous circadian pacemaker. In conclusion, the latest set of research articles suggest that in the clinical setting, actigraphy is reliable for evaluating sleep patterns in patients with insomnia, for studying the effect of treatments designed to improve sleep, in the diagnosis of circadian rhythm disorders (including shift work), and in evaluating sleep in individuals who are less likely to tolerate PSG, such as infants and demented elderly. While actigraphy has been used in research studies for many years, up to now, methodological issues had not been systematically addressed in clinical research and practice. Those issues have now been addressed and actigraphy may now be reaching the maturity needed for application in the clinical arena.
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PMID:The role of actigraphy in the study of sleep and circadian rhythms. 1621 87

Sleep/wake disorders are common, underdiagnosed, and associated with serious consequences. Patients tend not to mention sleep problems and clinicians often do not ask about them. Using a few simple screening questions and tools can uncover sleep/wake disorders that will respond to treatment. Consider asking about sleep during annual physicals and regular visits for chronic conditions. This is especially relevant when following patients with conditions linked to sleep/wake disorders. Educating patients about normal sleep and good sleep hygiene may improve sleep and prompt mention of unhealthy sleep/wake patterns.The use of CPAP leads to beneficial outcomes in OSA. Psychological and behavioral measures offer the best choice for patients with chronic insomnia. Bright light can help retrain the circadian rhythm in patients with circadian rhythm sleep disorders. Dopamine agonists are approved for treatment of RLS. Through a greater awareness of sleep/wake disorders and taking a proactive approach to patient questioning, diagnosis, education, and management, clinicians can better detect and treat sleep/wake disorders and improve patient outcomes and quality of life.
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PMID:Screening & treating patients with sleep/wake disorders. 2039 3

Nocturia--waking up during the night due to the urge to urinate and empty the bladder--is a serious problem for affected patients. In the past decades, nocturia has been primarily regarded as an irritative symptom of benign prostate hyperplasia (BPH). This symptom is however frequently not influenced by different BPH treatments. In the last couple of years one has come to the conclusion that the prostate is less involved and in part responsible for the symptoms since women are also frequently affected. For these reasons nocturia is looked at differently. It is a highly prevalent symptom which neither qualitatively nor quantitative differs between men and women. Many factors lead to nocturia. The following diseases are involved: coronary heart disease, diabetes mellitus or insipidus, lower urinary tract symptoms (LUTS), states of anxiety or insomnia as well as behavioural and environmental factors. Nocturia can be categorised in nocturnal polyuria (overproduction of nightly urine) or a diminished bladder capacity or a combination of both. These entities can be easily differentiated by arithmetic analysis, e.g., a 48-hour voiding diary. Only recently nocturia has been classified according to the aetiology and pathogenesis, making a differentiated treatment possible. However, even in the cases in which the underlying cause cannot be found behavioural changes can help. Nevertheless, pharmacological treatments are inevitable. Medical treatments include: desmopressin, anticholinergics and antimuscarinics, general-medical measures like support stockings, different time for the intake of diuretics or in specific cases the nasal CPAP artificial respiration (continuous positive airway pressure). In spite of the partly high effectiveness of these measures, treatment should be customised taking possible side effects in account.
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PMID:[Nocturia--an often misjudged problem]. 2428 36


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